Solidigm's datacenter SSD lineup includes models targeting different performance, endurance, and cost tradeoffs. Last year, the company had introduced the D5-P5336 QLC drive as a low-cost high-capacity drive for read-heavy workloads, while also preparing the SLC-based D7-P5810 for extremely write-intensive workloads requiring high endurance. The D7-P5520 / D7-P5620 Gen 4 drives with Solidigm's own 144L 3D TLC have been the high-performance offerings for generic workloads over the last couple of years.

Solidigm is announcing the availability of the successor to the D7-P5x20 today - the new D7-PS1010 and D7-PS1030. Both of these NVMe drives use SK hynix's 176L 3D TLC NAND and come with a PCIe 5.0 interface. The third digit in the model number matches the DWPD rating, with the D7-PS1010 targeting mixed workloads with a 1 DWPD rating, and the D7-PS1030 targeting write-intensive use-cases with a 3 DWPD rating.

Compared to the previous generation D7-P5x20, the D7-PS10x0 series brings about the following upgrades:

• Move from PCIe 4.0 x4 to PCIe 5.0 x4
• Move from 144L floating gate 3D TLC (Solidigm) to 176L charge trap 3D TLC (SK hynix)
• 25% longer mean-time between failures (MTBF) at 2.5M hours
• 10x higher uncorrectable bit-error rate (UBER) at 1E-18
• 1.8x to 2.8x improvement in high queue-depth random access IOPS
• 2.0x to 2.2x improvement in high queue-depth sequential access throughput

The specifications of the two new SSD families are summarized in the table below.

Based on Solidigm's own internal testing, the D7-PS1010 compares very favorably against the Gen 5 datacenter SSDs already in the market from Samsung and Kioxia. However, the recently introduced Micron 9550 series may present a better challenge to Solidigm's claims.

Gen 5 SSDs are well-suited for the storage-intensive tasks in AI workloads. Every new product needs to tie itself to the AI buzzword currently, but we should excuse SSD manufacturers for doing the same - after all training and inference needs to move large amounts of data back and forth between the processing engine and underlying memory. Solidigm expects the D7-PS10x0 to be a good fit as direct-attached storage internal to GPU servers or as all-flash tier supporting a HDD-only object tier in the cloud. For on-premises GPU servers, the flash / HDD tiered storage can be replaced by an all-QLC object tier.

Solidigm claims better energy efficiency compared to the competitors' Gen 5 drives from last year for various AI workload traces. While the data ingest and archival processes require system designers to maximize the storage capacity per watt (the QLC-based Solidigm D5-P5336 is attractive here), the core processing steps require the optimization of performance per watt. The D7-PS10x0 have a natural fit in this segment.

Solidigm / Intel has been serving the datacenter SSD market since its inception. The company is well aware of the quality and reliability requirements in this space. The D7-PS1010 and D7-PS1030 include the usual enhanced PLI (power loss imminent) validation checks for data saved in the process of power loss / restoration. The critical SRAMs in the SSD controller also have ECC protection. UBER testing goes well beyond the suggested JEDEC specifications. The company also claims that its silent data corruption testing and modeling are better than its competitors.

The new D7-PS1010 and D7-PS1030 bring class-leading Gen 5 performance to the datacenter SSD market. They are available for purchase now in both U.2 and E3.S form factors, with capacities ranging from 1.6 TB - 12.8 TB (D7-PS1030) and 1.92 TB - 15.36 TB (D7-PS1010).

In an unexpected announcement during their quarterly earnings call this week, Western Digital revealed that it has begun sampling an upcoming 32TB hard drive. The nearline HDD is aimed at hyperscalers, and relies on a combination of Westen Digital's EAMR technology, as well as shingled magnetic recording (SMR) technology to hit their highest capacity figures to date.

Western Digital's 32TB HDD uses all of the company's most advanced technologies. Besides energy-assisted magnetic recording (EAMR/ePMR 2 to be more precise) technology, WD is also leveraging triple-stage actuators for better positioning of heads and two-dimensional (TDMR) read heads, OptiNAND for extra performance and reliability, distributed sector (DSEC) technology and a proprietary error correcting code (ECC) technology. And, most importantly, UltraSMR technology to provide additional capacity.

"We are shipping samples of our 32TB UltraSMR/ePMR nearline hard drives to select customers," said David Goeckeler, chief executive of Western Digital, at the earnings call. "These drives feature advanced triple-stage actuators and OptiNAND technology which are designed for seamless qualification, integration and deployment in hyperscale cloud and enterprise data centers while maintaining exceptional reliability."

Seagate is currently shipping its 30TB Exos HDDs based on heat-assisted magnetic recording (HAMR) platform called Modaic 3+ to select exascalers, and the company has implied that it can build a 32TB version of the drive using SMR. Therefore, from capacity point of view, Western Digital's announcement means that the company has caught up with its rival.

As with the comapny's other UltraSMR drives, the 32TB nearline drive is aimed at WD's enterprise customers, whose infrastructure can handle the additional management requirements that SMR imposes. As SMR in enterprise drives is not transparent, it's up to the host to manage many of the complexities that come with a hard drive that isn't suited for random writes. Though at least in WD's case, the upshot is that UltraSMR also offers a more significant density increase than other SMR implementations, using a larger number of SMR bands to increase HDD capacity by up to 20%.

Working backwards, that 20% capacity increase also means that WD's new drive is starting from 2.56TB CMR platters. And while 2.56TB makes for a very decent areal density, this would mean that WD is still behind rival Seagate in terms of areal density overall, as Seagate has 3TB CMR platters in its latest HAMR-based Exos drives.